Evaluation of seismic performance and design of AAC building systems (autoclaved aerated concrete) with different reinforcement methods

IF 0.2 Q4 ENGINEERING, MULTIDISCIPLINARY
Mohammad Beiranvandi
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Abstract

Autoclaved lightweight concrete was produced for the first time in Sweden and after several decades, it has been widely used in most of the industrialized countries of the world, especially in the construction industry. Lightness, effect in reducing forces caused by earthquakes, ease of implementation, low thermal coefficient, fire resistance and sound insulation are among the undeniable advantages of this product. The use of this concrete is very effective in optimizing fuel and energy consumption, and its high compressive strength is considered an important feature, to the extent that it has been recognized as a desirable and suitable product in the construction industry. Obviously, with the growth of demand increasingly, using traditional methods and materials for housing production in Iran is not very effective. Compilation of criteria for the design and implementation of a gravity-bearing and lateral structural system made of AAC autoclaved aerated concrete products (including reinforced blocks and panels) The structure is made based on valid international regulations and considering Iran's seismic standards as follows. Roof and floor design using reinforced AAC roof panels and the combination of AAC roof blocks and regular concrete in place reinforced with steel reinforcements after examining the principles and foundations and modeling based on logical engineering principles and assumptions to compare the results and the outputs of the software have paid. Based on the available results, we can see the effect of the number of floors, plan and height of the floor on the behavior of the structure. According to the values in the table, the probability of the structure passing through the threshold of minor, moderate, and advanced damage is examined in different states. 1- The probability of passing a 1-story structure compared to a 2-story structure from the threshold of partial, moderate, and advanced damage has decreased by 59.7%, 94.5%, 99.3, and 99.8%, respectively. 2- The probability of passing a 2-story structure compared to a 3-story structure It reduces the threshold of partial, moderate, and advanced damage by 55.7%, 93.2%, 99.0%, and 99.7%, respectively.
不同加固方法的AAC建筑体系(蒸压加气混凝土)抗震性能评价与设计
蒸压轻质混凝土最早是在瑞典生产的,经过几十年的发展,在世界上大多数工业化国家,特别是建筑业中得到了广泛的应用。轻质、减轻地震力、易于施工、热系数低、耐火、隔音是本产品不可否认的优点。这种混凝土的使用在优化燃料和能源消耗方面非常有效,其高抗压强度被认为是一个重要的特征,在某种程度上,它已被认为是建筑行业理想和合适的产品。显然,随着需求的日益增长,在伊朗使用传统的方法和材料进行房屋生产并不十分有效。AAC蒸压加气混凝土产品(包括钢筋砌块和面板)的重力承重和侧向结构体系的设计和实施标准的编制。该结构是根据有效的国际规范和考虑伊朗的抗震标准制作的,如下所示。屋面和楼板设计采用加筋AAC屋面板和AAC屋面砌块与钢筋加固后的常规混凝土的组合,在检查了原理和基础和基于逻辑工程原理和假设的建模后,比较了结果和软件的输出。根据现有的结果,我们可以看到楼层数,平面和楼层高度对结构性能的影响。根据表中的数值,分别考察了结构在不同状态下通过轻度、中度和高级损伤阈值的概率。1-与2层结构相比,1层结构通过部分、中度和高级损坏阈值的概率分别降低了59.7%、94.5%、99.3%和99.8%。2-与3层结构相比,2层结构通过的概率。它将部分、中度和严重破坏的阈值分别降低了55.7%、93.2%、99.0%和99.7%。
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来源期刊
Nexo Revista Cientifica
Nexo Revista Cientifica ENGINEERING, MULTIDISCIPLINARY-
自引率
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发文量
74
审稿时长
30 weeks
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